IT in Manufacturing


When digital twins move from concept to critical tool

July 2026 IT in Manufacturing System Integration & Control Systems Design Maintenance, Test & Measurement, Calibration


Amritesh Anand, vice president and managing director, Technology Services Group at In2IT Technologies.

Digital twins have quietly moved from experimental technology to a practical tool in industries where downtime is costly and safety cannot be compromised. In sectors such as mining, manufacturing, transport and large-scale infrastructure, organisations are increasingly using digital twins to monitor critical assets, test scenarios and predict failures before they occur. Rather than simply showing what is happening now, a digital twin helps teams understand what is likely to happen next.

This shift comes at an important time. According to Grand View Research, South Africa’s digital twin market is expected to reach around $1,78 billion by 2030. Growth is being driven by increased sensor data at industrial sites, more affordable cloud computing, and pressure on organisations to extend the lifespan of expensive assets. While pilot projects are becoming more common, the real challenge lies in moving beyond demonstrations and ensuring digital twins deliver measurable operational value. In one documented case, a facility invested approximately $500 000 in digital twin technology and achieved a return on investment within 2 years, largely through a 15% reduction in maintenance costs and a 10% increase in operational efficiency. Stories like this illustrate how digital twins can transform industry operations, making the projected market growth more tangible.

Why digital twins go further than dashboards

Dashboards have long played a role in industrial operations by providing visibility into system performance. However, they are largely retrospective, showing what has already happened. A dashboard is like a rear-view mirror, allowing teams to see where they’ve been and what has occurred. In contrast, digital twins act like a GPS, guiding the way forward with real-time insights and predictive capabilities. Digital twins build on this foundation by adding context and prediction.

A digital twin creates a dynamic model of a physical asset or system that updates in real time. This allows teams to simulate scenarios, such as how a component failure might affect production or how changes in operating conditions could increase risk. In practical terms, this means maintenance teams can intervene earlier, planners can test options without disrupting live systems, and operators can make better-informed decisions under pressure.

In high-risk environments, such as underground operations or complex production facilities, this predictive capability can support safer and more consistent operations. However, extracting this value depends on how well the twin reflects real-world behaviour, which requires both technical and operational expertise.

Where digital twins deliver the most value

Not every asset needs a digital twin, and value is strongest where systems are complex, interconnected or safety critical. In mining, digital twins are used to model equipment movement underground, helping reduce collision risk and improve traffic flow. In manufacturing, digital twins of production lines allow teams to test process changes virtually before implementing them on the factory floor.

Transport networks and utilities are also well suited to this approach; by modelling entire systems rather than isolated components, operators can simulate disruptions, maintenance schedules or demand spikes and understand the knock-on effects across the network. In these environments, digital twins quickly move from optional innovation to operational necessity.

Experienced IT consultants play a key role in identifying where digital twins make sense and where simpler solutions may be more appropriate. This ensures investment is focused on assets where predictive insight can drive real outcomes.

The building blocks of a practical digital twin

A working digital twin relies on several interconnected components. At the foundation is reliable data from sensors, operational systems and historical records. Without accurate, well-governed data, even the most advanced twin will produce limited insight.

The next layer is integration. Many industrial environments rely on legacy systems that were never designed to work together. Integrating these systems with modern analytics platforms and scalable cloud infrastructure is often the most complex part of a digital twin initiative.

Finally, analytics and simulation tools turn data into actionable insight. This includes the ability to model future scenarios and identify emerging risks. IT consultants with experience across industrial environments are critical here, helping to align technical design with operational priorities rather than building models that look impressive but are difficult to use.

Managing the security risks that come with visibility

As digital twins centralise operational data and system logic, they also introduce new security considerations. To enhance security, it is crucial to treat these risks as an engineering control problem. Organisations should ask themselves: “What is the blast radius if my digital twin is breached?” By defining risk in these terms, teams are encouraged to build containment layers into the design. A compromised twin could expose sensitive information, or more concerningly, influence decision-making through manipulated data or models. Understanding the potential impact helps focus on building a resilient security framework.

Security must therefore be embedded from the outset. Clear access controls, strong data governance and separation between simulation environments and live operations are essential. Addressing these risks early helps ensure digital twins strengthen resilience rather than introduce new vulnerabilities.

Turning potential into operational impact

Digital twins are no longer theoretical tools, they are becoming a practical part of how industrial organisations manage risk, performance and asset longevity. The difference between success and stalled pilots often comes down to execution.

Organisations that achieve value focus on clear use cases, invest in the right foundations and work with experienced IT consultants who understand both technology and operational realities. In doing so, digital twins move beyond visualisation and become trusted tools for better, safer decision making.

For more information contact In2IT Technologies, +27 11 054 6900, [email protected], www.in2ittech.com




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